Monthly Archives: July 2015

“I take a low dose iron supplement – only 5 mg. – daily. The brand of iron supplement that I use is Pur Absorb, but I’m guessing that other low-dose iron supplements will work equally well. Within just a couple days of starting taking the iron supplement, my energy levels increased dramatically. I could walk a mile without being exhausted afterward. In addition to improving my energy level, the iron supplement seems to make my muscles and tendons more supple and malleable. When my tendons are feeling tight, a dose of iron helps to loosen them up – within just a couple hours. Too much iron is really bad for you, so please be careful with supplementing it (ask your doctor, yada yada), but it helps me immensely.”

I’ve always wondered why iron helped me to recover from fluoroquinolone toxicity. In some ways, it didn’t make sense – iron is an oxidant (according to a doctor friend, it’s a bit more complicated than that, and in some situations iron can be an antioxidant and in others it can be an oxidant), and antioxidant supplements are what help most floxies. Also, iron is a component of the Fenton Reaction, and the Fenton Reaction is where, “Iron(II) is oxidized by hydrogen peroxide to iron(III), forming a hydroxyl radical and a hydroxide ion in the process. Iron(III) is then reduced back to iron(II) by another molecule of hydrogen peroxide, forming a hydroperoxyl radical and a proton. The net effect is a disproportionation of hydrogen peroxide to create two different oxygen-radical species, with water (H+ + OH–) as a byproduct.” Basically, iron can “donate or accept free electrons via intracellular reactions and help in creating free radicals.” Free radicals are ROS. Some of the nastiest ROS are created in the Fenton Reaction – hydroxyl radicals and hydroperoxyl radicals. According to “Oxidative Stress Induced by Fluoroquinolones on Treatment for Complicated Urinary Tract Infections in Indian Patients,” fluoroqinolones increase the production of ROS, and it has been postulated (by myself and others) that the mechanism for fluoroquinolone toxicity is an excess of ROS wreaking havoc on all systems of the body.

“We show that iron chelation by FQ leads to epigenetic effects through inhibition of α-ketoglutarate-dependent dioxygenases that require iron as a co-factor.”

Iron depletion leads to adverse epigenetic effects through inhibition of iron-dependent enzymes. This is a very big deal – Fluoroquinolones can change genetic expression (epigenetics) in human cells. Later in the article it is noted that, “This is the first study to show global epigenetic changes induced by FQ antibiotics.” It had been previously postulated in “Epigenetic side-effects of common pharmaceuticals: A potential new field in medicine and pharmacology” (2009) that all fluoroquinolone adverse effects were the result of epigenetic changes, but “Non-antibiotic effects of fluoroquinolones in mammalian cells” describes the first study of human cells that shows epigenetic changes caused by fluoroquinolones. Epigenetics wasn’t even a notion, much less a field of study, when the FDA approved fluoroquinolones, drugs whose mechanism of action is, “inhibition of the enzymes topoisomerase II (DNA gyrase) and topoisomerase IV (both Type II topoisomerases), which are required for bacterial DNA replication, transcription, repair, and recombination.” Think about that next time you pick up a drug from the pharmacy and assume that it’s safe because the FDA approved it.

Dioxygenases are enzymes that are necessary for aerobic life. Fluoroquinolones inhibit α-ketoglutarate-dependent dioxygenases, which require iron as a co-factor. Depletion of α-ketoglutarate-dependent dioxygenases leads to changes in how genes are expressed.

Fluoroquinolones were also found to inhibit several demethylases, “enzymes that remove methyl (CH3-) groups from nucleic acids, proteins (in particular histones), and other molecules. Demethylase enzymes are important in epigenetic modification mechanisms. The demethylase proteins alter transcriptional regulation of the genome by controlling the methylation levels that occur on DNA and histones and, in turn, regulate the chromatin state at specific gene loci within organisms.” FQs were found to inhibit “Jumonji domain histone demethylases, TET DNA demethylases, and collagen prolyl 4-hydroxylases, leading to accumulation of methylated histones and DNA, and inhibition of proline hydroxylation in collagen, respectively. These effects may explain FQ-induced nephrotoxicity and tendinopathy.” (emphasis added).

“These results suggest, for the first time, that FQ treatment can cause unanticipated epigenetic effects. Moreover, we suggest that the well-established linkage between FQ treatment and tendinopathy reflects impairment of collagen maturation by FQ. We suggest that it is the inhibition of collagen 4 prolylhydroxylases by FQ mediated iron chelation, and repression of collagen P4H1 and LH1 transcription that underlies the peculiar tendinopathy side effects of FQ antibiotics.”

And:

“FQ are potent iron chelators capable of inhibiting 2-KG dependent dioxygenases because of the crucial role of iron in the active site. We show that FQ treatment inhibits collagen maturation. Prolyl 4- hydroxylase and lysyl hydroxylase are iron dependent enzymes essential for the post-translational modification of collagen. Both play central roles in collagen maturation through hydroxylation of proline and lysine residues to mediate collagen cross-linking. Covalent crosslinks are required for the tensile strength of collagen fibers (64). We suggest that it is iron chelation by FQ that accounts for suppressed collagen hydroxylation, giving rise to tendinopathies.”

And:

“Additionally, suppression of HIF-1α can have drastic effects on vascularization and energy metabolism in connective tissues, contributing to decreased blood flow in an already hypoxic and avascular tissue. We suggest that these three insults – inhibition of prolyl and lysyl dioxygenases, reduction of P4HA1 and LH1 mRNA levels, and reduced tendon vascularization upon HIF-1α depletion – together account for FQ induced tendinopathies.”

To sum up the excerpts, fluoroquinolones chelate iron from cells, this leads to inhibition of iron-dependent enzymes, which lead to epigenetic changes that result in collagen malformation and tendinopathies. It should also be noted that fluoroquinolones chelate other minerals, including magnesium, from cells, and magnesium-dependent enzymes are inhibited by fluoroquinolones as well.

All doctors and researchers, and the FDA, should note that in chelating necessary minerals from the body, fluoroquinolones are not only inhibiting necessary enzymatic reactions, they’re also changing genetic expression, and that the long list of severe adverse effects of fluoroquinolones may be due to adverse expression of genes. Neither long-term, nor intergenerational effects of fluoroquinolones are currently known.

So… what should floxies do with this information? Personally, I supplement iron and I find that it helps me immensely. Not everyone can, or should, supplement iron though. Too little iron is bad, but too much is also harmful. The prudent thing to do is to get your iron levels tested and to supplement if necessary under the care of your doctor.

When I corresponded with Dr. Maher, one of the authors of “Non-antibiotic effects of fluoroquinolones in mammalian cells,” he noted that, “I would simply emphasize that what we demonstrate in this work involves human cells grown in culture, and lab conditions, and we want to make it clear that these are findings of potential mechanisms of fluoroquinolone antibiotics that could be relevant for patients, but we provide no direct data related to human patients or treatments. Further studies will be required to understand if these or related effects actually occur in people.”

I am thankful to Doctors Badal, Her and Maher for their work on “Non-antibiotic effects of fluoroquinolones in mammalian cells!” Of course, caution should be used when drawing conclusions from their results. Though I shouldn’t draw conclusions about how FQs react in a complex human body from how human kidney cells react in a petri dish, I don’t think that it’s completely out of line to say that the potential implications of this research are huge. The chelation of minerals from cells by fluoroquinolones may be leading to epigenetic changes in the people who take fluoroquinolones. What this means for their health is not currently known.

The epigenetic adverse effects of fluoroquinolones were found to be reversible by exposing the floxed cells to iron, and studies have shown that magnesium, vitamin E, MitoQ and NAC can reverse some of the effects of fluoroquinolones, so please have hope, hang in there, and take your mineral supplements (under the supervision of your doctor, yada, yada).

Fluoroquinolones, along with several other drugs, can cause long QT syndrome. This means that, “After each heartbeat, your heart’s electrical system recharges itself in preparation for the next heartbeat. This process is known as repolarization. In long QT syndrome, your heart muscle takes longer than normal to recharge between beats. This electrical disturbance, which often can be seen on an electrocardiogram (ECG), is called a prolonged Q-T interval.”

Floxies should probably be wary of all other drugs that cause long QT syndrome.

David Wolfe, a health, eco, nutrition and natural beauty expert (more information about him can be found HERE) posted the picture above on facebook. He has more than 1,200,000 facebook followers and I greatly appreciate his help in spreading the word about the dangers of fluoroquinolones! Many people commented on picture and told their story of how fluoroquinolones hurt them. There are a lot of us out there, and the more the word gets spread, the more likely change is.

As always, there were some nay-sayers. Honestly, there were a lot more people sharing their stories than there were nay-sayers, and I’m not suggesting that we all gang up on them, but I have some thoughts about the some of the nay-saying comments. Here are some examples of the nay-saying comments:

“Want to go back to the dark ages before antibiotics?”

“If we didn’t have antibiotics…alot of people would die..”

“People who don’t believe in medicine should live on their own island of ignorance and watch their life expectancy drop to that of their intelligence.”

“WAIT! Are you trying to scare people off antibiotics now??? How many people would have to die of preventable illnesses before you retract this?”

Sigh. Why do these people think that all antibiotics are the same? Why do they think that all antibiotics are safe? Why do they think that warning people about the dangers of fluoroquinolones equates to being anti-antibiotic? Where is the grey area? Can’t some antibiotics be appropriate for use in some circumstances but not others? Can’t different antibiotics have different safety profiles? Isn’t information about the dangers of drugs valuable so that people can make informed choices? Doesn’t it matter that fluoroquinolones damage nerves, the musculoskeletal system, the eyes and kidneys? Can’t that information lead to greater consumer knowledge and informed consent when fluoroquinolones are prescribed? Can’t the dangers of fluoroquinolones be acknowledged without being “anti-antibiotic?” Can’t we fight for prudent and appropriate use of all antibiotics (especially FQs) without negating the lives that have been saved by antibiotics (including FQs)? GREY AREA, folks! The world isn’t black and white. Sigh.

“A healthy and balanced microbiome (“the ecological community of commensal, symbiotic and pathogenic microorganisms that literally share our body space”) is crucial for all areas of health, and a disturbed microbiome has been linked to all of the diseases of modernity, including mental health disorders, neurodegenerative diseases like Parkinson’s and Alzheimer’s, autoimmune diseases, inflammatory bowel disease and Crohn’s disease, mysterious diseases like fibromyalgia, autism, etc. And while there is acknowledgement of the role that a healthy microbiome plays in these diseases, researchers and journalists alike have been loath to acknowledge the role antibiotics have played in contributing to these diseases of modernity. No one wants to be anti-antibiotic. Everyone knows that antibiotics have saved millions of lives, but that doesn’t mean they are without consequences. And the good that penicillin has done doesn’t mean that all antibiotics are equally safe or effective. I can make a pretty thorough argument that fluoroquinolone antibiotics, like Cipro/ciprofloxacin and Levaquin/levofloxacin, drugs that work by “inhibition of the enzymes topoisomerase II (DNA gyrase) and topoisomerase IV (both Type II topoisomerases), which are required for bacterial DNA replication, transcription, repair, and recombination,” are at least partially responsible for many of the diseases of modernity (more information can be found HERE, HERE and HERE). Fluoroquinolone antibiotics do not have the same safety profile as amoxicillin, and to assume that they do because both are categorized as antibiotics, is foolish on multiple levels.”

That’s my two cents of a response to the people who say things like the quotes above. Also, quit giving carte blanche to the pharmaceutical companies if they label their dangerous drug as an antibiotic, because that’s just stupid.

The 21st Century Cures Act promises to make a lot more floxies. If a drug is an antibiotic, phase 3 testing won’t be required; all antibiotics will be rushed to market and hospitals will be rewarded for using the experimental drugs. New fluoroquinolones will surely be made and old ones are likely to be put back on the market. Warn everyone. This is NOT good.